Publication Date
| In 2026 | 0 |
| Since 2025 | 0 |
| Since 2022 (last 5 years) | 0 |
| Since 2017 (last 10 years) | 0 |
| Since 2007 (last 20 years) | 1 |
Descriptor
Author
Publication Type
| Journal Articles | 13 |
| Guides - Classroom - Teacher | 10 |
| Reports - Descriptive | 9 |
| Guides - Non-Classroom | 1 |
| Reports - Research | 1 |
Education Level
| Higher Education | 1 |
Audience
| Practitioners | 10 |
| Teachers | 7 |
| Researchers | 4 |
| Students | 1 |
Location
Laws, Policies, & Programs
Assessments and Surveys
What Works Clearinghouse Rating
Direct linkLi, Wai-Kee; Blinder, S. M. – Journal of Chemical Education, 2011
It is not often realized by chemists that the special theory of relativity is behind several aspects of quantum chemistry. The Schrdinger equation itself is based on relations between space-time and energy-momentum four vectors. Electron spin is, of course, the most obvious manifestation of relativity. The chemistry of some heavy elements is…
Descriptors: Chemistry, Scientific Concepts, Quantum Mechanics, Science Activities
Peer reviewedCole, Robert H.; Berberian, John G. – Journal of Chemical Education, 1971
Descriptors: Chemical Analysis, Chemistry, College Science, Instruction
Worrall, I. J. – J Chem Educ, 1969
Descriptors: Chemistry, College Science, Instrumentation, Laboratory Experiments
Schwendeman, R. H.; And Others – J Chem Educ, 1970
Descriptors: Chemistry, College Science, Laboratory Experiments, Physical Sciences
Glaros, George; Cromwell, Norman H. – J Chem Educ, 1969
Descriptors: Chemistry, College Science, Laboratory Experiments, Organic Chemistry
Peer reviewedGlaros, George; Cromwell, Norman H. – Journal of Chemical Education, 1971
Descriptors: Chemical Bonding, Chemistry, College Science, Instructional Materials
Peer reviewedHecht, Stephen S. – Journal of Chemical Education, 1971
Descriptors: Chemistry, College Science, Instructional Materials, Laboratory Procedures
Peer reviewedJesaitis, R. G.; Krantz, A. – Journal of Chemical Education, 1971
Descriptors: Acids, Biochemistry, Chemistry, College Science
Peer reviewedKing, Roy W.; Williams, Kathryn R. – Journal of Chemical Education, 1989
Using fourier transformation methods in nuclear magnetic resonance has made possible increased sensitivity in chemical analysis. This article describes these methods as they relate to magnetization, the RF magnetic field, nuclear relaxation, the RF pulse, and free induction decay. (CW)
Descriptors: Chemistry, College Science, Higher Education, Instrumentation
Peer reviewedCrawford, Thomas H.; Swanson, John – Journal of Chemical Education, 1971
Descriptors: Atomic Structure, Chemistry, College Science, Heat
Peer reviewedGlaros, George; Cromwell, Norman H. – Journal of Chemical Education, 1971
Descriptors: Chemical Bonding, Chemistry, College Science, Instructional Materials
Peer reviewedTaber, Richard L.; Grantham, Gary D. – Journal of Chemical Education, 1970
Descriptors: Chemistry, College Science, Instruction, Instructional Materials
Peer reviewedHarbison, Kenneth G. – Journal of Chemical Education, 1970
Descriptors: Chemistry, College Science, Instruction, Instructional Materials
Peer reviewedSettle, Frank A. Jr., Ed. – Journal of Chemical Education, 1989
Using Fourier transformation methods in nuclear resonance has made possible increased sensitivity in chemical analysis. This article describes data acquisition, data processing, and the frequency spectrum as they relate to this technique. (CW)
Descriptors: Chemistry, College Science, Higher Education, Instrumentation
Peer reviewedAhn, Myong-Ku – Journal of Chemical Education, 1989
Nuclear magnetic resonance and infrared are two spectroscopic methods that commonly use the Fourier transform technique. Discussed are the similarities and differences in the use of the Fourier transform in these two spectroscopic techniques. (CW)
Descriptors: Chemistry, College Science, Higher Education, Laboratory Equipment
Previous Page | Next Page ยป
Pages: 1 | 2
